Articles citing this paper
Analysis of the patterns of large fires in the boreal forest region of Alaska
Eric S. Kasischke, David Williams and Donald Barry
11(2) pp.131 - 144
204 articles found in Crossref database.
Effects of source temporal resolution on transport simulations of boreal fire emissions
Hyer Edward J.,
Kasischke Eric S., Allen Dale J.
Journal of Geophysical Research: Atmospheres. 2007 112(D1).
Mapping burned area in Alaska using MODIS data: a data limitations-driven modification to the regional burned area algorithm
Loboda Tatiana V.,
Hoy Elizabeth E.,
Giglio Louis, Kasischke Eric S.
International Journal of Wildland Fire. 2011 20(4). p.487
Post-Fire Burn Severity and Vegetation Response Following Eight Large Wildfires Across the Western United States
Lentile Leigh B.,
Morgan Penelope,
Hudak Andrew T.,
Bobbitt Michael J.,
Lewis Sarah A.,
Smith Alistair M. S., Robichaud Peter R.
Fire Ecology. 2007 3(1). p.91
Missing Burns in the High Northern Latitudes: The Case for Regionally Focused Burned Area Products
Chen Dong,
Shevade Varada,
Baer Allison, Loboda Tatiana V.
Remote Sensing. 2021 13(20). p.4145
Human Impacts on the Fire Regime of Interior Alaska: Interactions among Fuels, Ignition Sources, and Fire Suppression
DeWilde La’ona, Chapin F. Stuart
Ecosystems. 2006 9(8). p.1342
Projected changes in atmospheric heating due to changes in fire disturbance and the snow season in the western Arctic, 2003–2100
Euskirchen E. S.,
McGuire A. D.,
Rupp T. S.,
Chapin F. S., Walsh J. E.
Journal of Geophysical Research: Biogeosciences. 2009 114(G4).
Dynamics of Land-Use and Land-Cover Change in Tropical Regions
Lambin Eric F.,
Geist Helmut J., Lepers Erika
Annual Review of Environment and Resources. 2003 28(1). p.205
Integrating fuzzy logic with piecewise linear regression for detecting vegetation greenness change in the Yukon River Basin, Alaska
Xue Yueju,
Liu Shuguang,
Zhang Li, Hu Yueming
International Journal of Remote Sensing. 2013 34(12). p.4242
Spatio-Temporal Analysis of Forest Fire Occurrences during the Dry Season between 1990s and 2000s in South Korea
Won Myoung-Soo,
Yoon Suk-Hee,
Koo Kyo-Sang, Kim Kyong-Ha
Journal of the Korean Association of Geographic Information Studies. 2011 14(3). p.150
Static and dynamic controls on fire activity at moderate spatial and temporal scales in the Alaskan boreal forest
Barrett Kirsten,
Loboda Tatiana,
McGuire A. D.,
Genet Hélène,
Hoy Elizabeth, Kasischke Eric
Ecosphere. 2016 7(11).
Dendroclimatic inference of wildfire activity in Quebec over the 20th century and implications for natural disturbance-based forest management at the northern limit of the commercial forest
Le Goff Héloïse,
Girardin Martin P.,
Flannigan Mike D., Bergeron Yves
International Journal of Wildland Fire. 2008 17(3). p.348
The use of ATSR active fire counts for estimating relative patterns of biomass burning – a study from the boreal forest region
Kasischke Eric S.,
Hewson Jennifer H.,
Stocks Brian,
van der Werf Guido, Randerson James
Geophysical Research Letters. 2003 30(18).
Assessment of boreal forest historical C dynamics in the Yukon River Basin: relative roles of warming and fire regime change
Yuan F.-M.,
Yi S.-H.,
McGuire A. D.,
Johnson K. D.,
Liang J.,
Harden J. W.,
Kasischke E. S., Kurz W. A.
Ecological Applications. 2012 22(8). p.2091
AVHRR-based mapping of fires in Russia: New products for fire management and carbon cycle studies
Sukhinin Anatoly I.,
French Nancy H.F.,
Kasischke Eric S.,
Hewson Jenny H.,
Soja Amber J.,
Csiszar Ivan A.,
Hyer Edward J.,
Loboda Tatiana,
Conrad Susan G.,
Romasko Victor I.,
Pavlichenko Eugene A.,
Miskiv Sergey I., Slinkina Olga A.
Remote Sensing of Environment. 2004 93(4). p.546
Major disturbance events in terrestrial ecosystems detected using global satellite data sets
POTTER CHRISTOPHER,
TAN PANG‐NING,
STEINBACH MICHAEL,
KLOOSTER STEVEN,
KUMAR VIPIN,
MYNENI RANGA, GENOVESE VANESSA
Global Change Biology. 2003 9(7). p.1005
Assessment of the MODIS Leaf Area Index Product (MOD15) in Alaska
Verbyla D. L.
International Journal of Remote Sensing. 2005 26(6). p.1277
Disturbance suppresses the aboveground carbon sink in North American boreal forests
Wang Jonathan A.,
Baccini Alessandro,
Farina Mary,
Randerson James T., Friedl Mark A.
Nature Climate Change. 2021 11(5). p.435
A super SDM (species distribution model) ‘in the cloud’ for better habitat-association inference with a ‘big data’ application of the Great Gray Owl for Alaska
Huettmann Falk,
Andrews Phillip,
Steiner Moriz,
Das Arghya Kusum,
Philip Jacques,
Mi Chunrong,
Bryans Nathaniel, Barker Bryan
Scientific Reports. 2024 14(1).
Optical properties of boreal region biomass burning aerosols in central Alaska and seasonal variation of aerosol optical depth at an Arctic coastal site
Eck T. F.,
Holben B. N.,
Reid J. S.,
Sinyuk A.,
Hyer E. J.,
O'Neill N. T.,
Shaw G. E.,
Vande Castle J. R.,
Chapin F. S.,
Dubovik O.,
Smirnov A.,
Vermote E.,
Schafer J. S.,
Giles D.,
Slutsker I.,
Sorokine M., Newcomb W. W.
Journal of Geophysical Research: Atmospheres. 2009 114(D11).
Detecting Local Drivers of Fire Cycle Heterogeneity in Boreal Forests: A Scale Issue
Bélisle Annie,
Leduc Alain,
Gauthier Sylvie,
Desrochers Mélanie,
Mansuy Nicolas,
Morin Hubert, Bergeron Yves
Forests. 2016 7(7). p.139
Detecting high and low-intensity fires in Alaska using VIIRS I-band data: An improved operational approach for high latitudes
Waigl Christine F.,
Stuefer Martin,
Prakash Anupma, Ichoku Charles
Remote Sensing of Environment. 2017 199 p.389
Drought effects on large fire activity in Canadian and Alaskan forests
Xiao Jingfeng, Zhuang Qianlai
Environmental Research Letters. 2007 2(4). p.044003
Burned area forecasting using past burned area records and Southern Oscillation Index for tropical Africa (1981–1999)
Riaño D.,
Moreno Ruiz J.A.,
Barón Martínez J., Ustin S.L.
Remote Sensing of Environment. 2007 107(4). p.571
Quantifying burned area for North American forests: Implications for direct reduction of carbon stocks
Kasischke Eric S.,
Loboda Tatiana,
Giglio Louis,
French Nancy H. F.,
Hoy E. E.,
de Jong Bernardus, Riano David
Journal of Geophysical Research. 2011 116(G4).
Pre- and post-European settlement fire history of red pine dominated forest ecosystems of Seney National Wildlife Refuge, Upper Michigan
Drobyshev Igor,
Goebel P. Charles,
Hix David M.,
Corace R. Gregory, Semko-Duncan Marie E.
Canadian Journal of Forest Research. 2008 38(9). p.2497
SIMULATING THE INFLUENCES OF VARIOUS FIRE REGIMES ON CARIBOU WINTER HABITAT
Rupp T. Scott,
Olson Mark,
Adams Layne G.,
Dale Bruce W.,
Joly Kyle,
Henkelman Jonathan,
Collins William B., Starfield Anthony M.
Ecological Applications. 2006 16(5). p.1730
Soil carbon distribution in Alaska in relation to soil-forming factors
Johnson Kristofer D.,
Harden Jennifer,
McGuire A. David,
Bliss Norman B.,
Bockheim James G.,
Clark Mark,
Nettleton-Hollingsworth Teresa,
Jorgenson M. Torre,
Kane Evan S.,
Mack Michelle,
O'Donnell Jonathan,
Ping Chien-Lu,
Schuur Edward A.G.,
Turetsky Merritt R., Valentine David W.
Geoderma. 2011 167-168 p.71
Global burned area and biomass burning emissions from small fires
Randerson J. T.,
Chen Y.,
van der Werf G. R.,
Rogers B. M., Morton D. C.
Journal of Geophysical Research: Biogeosciences. 2012 117(G4).
Is Alaska’s Boreal Forest Now Crossing a Major Ecological Threshold?
Mann Daniel H.,
Rupp T. Scott,
Olson Mark A., Duffy Paul A.
Arctic, Antarctic, and Alpine Research. 2012 44(3). p.319
Fire disturbance effects on land surface albedo in Alaskan tundra
French Nancy H. F.,
Whitley Matthew A., Jenkins Liza K.
Journal of Geophysical Research: Biogeosciences. 2016 121(3). p.841
Spatial-temporal distribution of forest fires and fire weather index calculation from 2000 to 2009 in China
Ullah M.R.,
Liu X.D., Al-Amin M.
Journal of Forest Science. 2013 59(7). p.279
RELATIONSHIPS AMONG FIRES, FUNGI, AND SOIL DYNAMICS IN ALASKAN BOREAL FORESTS
Treseder Kathleen K.,
Mack Michelle C., Cross Alison
Ecological Applications. 2004 14(6). p.1826
Fuel availability not fire weather controls boreal wildfire severity and carbon emissions
Walker X. J.,
Rogers B. M.,
Veraverbeke S.,
Johnstone J. F.,
Baltzer J. L.,
Barrett K.,
Bourgeau-Chavez L.,
Day N. J.,
de Groot W. J.,
Dieleman C. M.,
Goetz S.,
Hoy E.,
Jenkins L. K.,
Kane E. S.,
Parisien M.-A.,
Potter S.,
Schuur E. A. G.,
Turetsky M.,
Whitman E., Mack M. C.
Nature Climate Change. 2020 10(12). p.1130
Increased Fire Activity in Alaska Since the 1980s: Evidence From an Ice Core‐Derived Black Carbon Record
Sierra‐Hernández M. Roxana,
Beaudon Emilie,
Porter Stacy E.,
Mosley‐Thompson Ellen, Thompson Lonnie G.
Journal of Geophysical Research: Atmospheres. 2022 127(2).
Multi-scale evaluation of the environmental controls on burn probability in a southern Sierra Nevada landscape
Parks Sean A.,
Parisien Marc-André, Miller Carol
International Journal of Wildland Fire. 2011 20(7). p.815
Quantifying the source area of macroscopic charcoal with a particle dispersal model
Peters Matthew Edward, Higuera Philip Edward
Quaternary Research. 2007 67(2). p.304
Seasonal climatology of CO2 across North America from aircraft measurements in the NOAA/ESRL Global Greenhouse Gas Reference Network
Sweeney Colm,
Karion Anna,
Wolter Sonja,
Newberger Timothy,
Guenther Doug,
Higgs Jack A.,
Andrews Arlyn Elyzabeth,
Lang Patricia M.,
Neff Don,
Dlugokencky Edward,
Miller John B.,
Montzka Stephen A.,
Miller Ben R.,
Masarie Ken Alan,
Biraud Sebastien Christophe,
Novelli Paul C.,
Crotwell Molly,
Crotwell Andrew M.,
Thoning Kirk, Tans Pieter P.
Journal of Geophysical Research: Atmospheres. 2015 120(10). p.5155
Differences in Human versus Lightning Fires between Urban and Rural Areas of the Boreal Forest in Interior Alaska
Calef Monika,
Varvak Anna, McGuire A.
Forests. 2017 8(11). p.422
Simulating forest fire spread and fire-fighting using cellular automata
Mutthulakshmi K.,
Wee Megan Rui En,
Wong Yew Chong Kester,
Lai Joel Weijia,
Koh Jin Ming,
Acharya U. Rajendra, Cheong Kang Hao
Chinese Journal of Physics. 2020 65 p.642
Tundra burning in Alaska: Linkages to climatic change and sea ice retreat
Hu Feng Sheng,
Higuera Philip E.,
Walsh John E.,
Chapman William L.,
Duffy Paul A.,
Brubaker Linda B., Chipman Melissa L.
Journal of Geophysical Research: Biogeosciences. 2010 115(G4).
Synergistic use of spaceborne lidar and optical imagery for assessing forest disturbance: An Alaska case study
Goetz S. J.,
Sun M.,
Baccini A., Beck P. S. A.
Journal of Geophysical Research: Biogeosciences. 2010 115(G2).
Uncertainty in estimating carbon emissions from boreal forest fires
French Nancy H. F.,
Goovaerts Pierre, Kasischke Eric S.
Journal of Geophysical Research: Atmospheres. 2004 109(D14).
The spatial and temporal distribution of fires on Sakhalin Island, Russia
Kharuk V. I.,
Kasischke E. S., Yakubailik O. E.
International Journal of Wildland Fire. 2007 16(5). p.556
An evaluation of spatial and temporal patterns of lightning- and human-caused forest fires in Alberta, Canada, 1980 - 2007
Wang Yonghe, Anderson Kerry R.
International Journal of Wildland Fire. 2010 19(8). p.1059
Linking sediment‐charcoal records and ecological modeling to understand causes of fire‐regime change in boreal forests
Brubaker Linda B.,
Higuera Philip E.,
Rupp T. Scott,
Olson Mark A.,
Anderson Patricia M., Hu Feng Sheng
Ecology. 2009 90(7). p.1788
Detecting early warning signals of tree mortality in boreal North America using multiscale satellite data
Rogers Brendan M.,
Solvik Kylen,
Hogg Edward H.,
Ju Junchang,
Masek Jeffrey G.,
Michaelian Michael,
Berner Logan T., Goetz Scott J.
Global Change Biology. 2018 24(6). p.2284
Analysis of Alaskan burn severity patterns using remotely sensed data
Duffy Paul A.,
Epting Justin,
Graham Jonathan M.,
Rupp T. Scott, McGuire A. David
International Journal of Wildland Fire. 2007 16(3). p.277
Daily burned area and carbon emissions from boreal fires in Alaska
Veraverbeke S.,
Rogers B. M., Randerson J. T.
Biogeosciences. 2015 12(11). p.3579
Quantifying the impact of cloud obscuration on remote sensing of active fires in the Brazilian Amazon
Schroeder Wilfrid,
Csiszar Ivan, Morisette Jeffrey
Remote Sensing of Environment. 2008 112(2). p.456
Improving global estimates of atmospheric emissions from biomass burning
Kasischke Eric S., Penner Joyce E.
Journal of Geophysical Research: Atmospheres. 2004 109(D14).
IMPACTS OF LARGE‐SCALE ATMOSPHERIC–OCEAN VARIABILITY ON ALASKAN FIRE SEASON SEVERITY
Duffy Paul A.,
Walsh John E.,
Graham Jonathan M.,
Mann Daniel H., Rupp T. Scott
Ecological Applications. 2005 15(4). p.1317
Machine learning to predict final fire size at the time of ignition
Coffield Shane R.,
Graff Casey A.,
Chen Yang,
Smyth Padhraic,
Foufoula-Georgiou Efi, Randerson James T.
International Journal of Wildland Fire. 2019 28(11). p.861
Forest succession and climate variability interacted to control fire activity over the last four centuries in an Alaskan boreal landscape
Hoecker Tyler J., Higuera Philip E.
Landscape Ecology. 2019 34(2). p.227
Fire history and fire management implications in the Yukon Flats National Wildlife Refuge, interior Alaska
Drury S.A., Grissom P.J.
Forest Ecology and Management. 2008 256(3). p.304
Resilience and Vulnerability of Northern Regions to Social and Environmental Change
Chapin F. S.,
Peterson G.,
Berkes F.,
Callaghan T. V.,
Angelstam P.,
Apps M.,
Beier C.,
Bergeron Y.,
Crépin A-S.,
Danell K.,
Elmqvist T.,
Folke C.,
Forbes B.,
Fresco N.,
Juday G.,
Niemelä J.,
Shvidenko A., Whiteman G.
AMBIO: A Journal of the Human Environment. 2004 33(6). p.344
Carbon loss from boreal forest wildfires offset by increased dominance of deciduous trees
Mack Michelle C.,
Walker Xanthe J.,
Johnstone Jill F.,
Alexander Heather D.,
Melvin April M.,
Jean Mélanie, Miller Samantha N.
Science. 2021 372(6539). p.280
Land cover influences boreal-forest fire responses to climate change: geospatial analysis of historical records from Alaska
Dash Carolyn Barrett,
Fraterrigo Jennifer M., Hu Feng Sheng
Landscape Ecology. 2016 31(8). p.1781
Direct and indirect climate controls predict heterogeneous early-mid 21st century wildfire burned area across western and boreal North America
Kitzberger Thomas,
Falk Donald A.,
Westerling Anthony L.,
Swetnam Thomas W., Rossi Sergio
PLOS ONE. 2017 12(12). p.e0188486
Arctic and boreal paleofire records reveal drivers of fire activity and departures from Holocene variability
Hoecker Tyler J.,
Higuera Philip E.,
Kelly Ryan, Hu Feng Sheng
Ecology. 2020 101(9).
Quantifying fire‐wide carbon emissions in interior Alaska using field measurements and Landsat imagery
Rogers B. M.,
Veraverbeke S.,
Azzari G.,
Czimczik C. I.,
Holden S. R.,
Mouteva G. O.,
Sedano F.,
Treseder K. K., Randerson J. T.
Journal of Geophysical Research: Biogeosciences. 2014 119(8). p.1608
Wildland Fires and Air Pollution (2008)
Codominant water control on global interannual variability and trends in land surface phenology and greenness
Forkel Matthias,
Migliavacca Mirco,
Thonicke Kirsten,
Reichstein Markus,
Schaphoff Sibyll,
Weber Ulrich, Carvalhais Nuno
Global Change Biology. 2015 21(9). p.3414
Heterogeneous response of circumboreal wildfire risk to climate change since the early 1900s
GIRARDIN MARTIN P.,
ALI ADAM A.,
CARCAILLET CHRISTOPHER,
MUDELSEE MANFRED,
DROBYSHEV IGOR,
HÉLY CHRISTELLE, BERGERON YVES
Global Change Biology. 2009 15(11). p.2751
Identifying environmental controls on vegetation greenness phenology through model–data integration
Forkel M.,
Carvalhais N.,
Schaphoff S.,
v. Bloh W.,
Migliavacca M.,
Thurner M., Thonicke K.
Biogeosciences. 2014 11(23). p.7025
Distribution patterns of fire regime in the Pendjari Biosphere Reserve, West Africa
Zoffoun Omobayo G.,
Djagoun Chabi A. M. S., Sogbohossou Etotépé A.
Journal of Arid Land. 2023 15(10). p.1160
Satellite observations document trends consistent with a boreal forest biome shift
Berner Logan T., Goetz Scott J.
Global Change Biology. 2022 28(10). p.3275
Recent Changes in Annual Area Burned in Interior Alaska: The Impact of Fire Management
Calef M. P.,
Varvak A.,
McGuire A. D.,
Chapin F. S., Reinhold K. B.
Earth Interactions. 2015 19(5). p.1
Large fires as agents of ecological diversity in the North American boreal forest
Burton Philip J.,
Parisien Marc-André,
Hicke Jeffrey A.,
Hall Ronald J., Freeburn Jason T.
International Journal of Wildland Fire. 2008 17(6). p.754
Impacts of disturbance on the terrestrial carbon budget of North America
Kasischke Eric S.,
Amiro Brian D.,
Barger Nichole N.,
French Nancy H. F.,
Goetz Scott J.,
Grosse Guido,
Harmon Mark E.,
Hicke Jeffrey A.,
Liu Shuguang, Masek Jeffrey G.
Journal of Geophysical Research: Biogeosciences. 2013 118(1). p.303
Postfire response of North American boreal forest net primary productivity analyzed with satellite observations
Hicke Jeffrey A.,
Asner Gregory P.,
Kasischke Eric S.,
French Nancy H. F.,
Randerson James T.,
James Collatz G.,
Stocks Brian J.,
Tucker Compton J.,
Los Sietse O., Field Christopher B.
Global Change Biology. 2003 9(8). p.1145
Controls on carbon consumption during Alaskan wildland fires
Kasischke Eric S., Hoy Elizabeth E.
Global Change Biology. 2012 18(2). p.685
Spatiotemporal variation of surface shortwave forcing from fire-induced albedo change in interior Alaska
Huang Shengli,
Dahal Devendra,
Liu Heping,
Jin Suming,
Young Claudia,
Li Shuang, Liu Shuguang
Canadian Journal of Forest Research. 2015 45(3). p.276
Landscape-level interactions of prefire vegetation, burn severity, and postfire vegetation over a 16-year period in interior Alaska
Epting Justin, Verbyla David
Canadian Journal of Forest Research. 2005 35(6). p.1367
Future increases in lightning ignition efficiency and wildfire occurrence expected from drier fuels in boreal forest ecosystems of western North America
Hessilt Thomas D,
Abatzoglou John T,
Chen Yang,
Randerson James T,
Scholten Rebecca C,
van der Werf Guido, Veraverbeke Sander
Environmental Research Letters. 2022 17(5). p.054008
Landscape‐scale patterns in tree occupancy and abundance in subarctic Alaska
Roland Carl A.,
Schmidt Joshua H., Nicklen E. Fleur
Ecological Monographs. 2013 83(1). p.19
Spatial patterns of forest fires in Canada, 1980 - 1999
Parisien Marc-André,
Peters Vernon S.,
Wang Yonghe,
Little John M.,
Bosch Erin M., Stocks Brian J.
International Journal of Wildland Fire. 2006 15(3). p.361
Historical fire regime shifts related to climate teleconnections in the Waswanipi area, central Quebec, Canada
Le Goff Héloïse,
Flannigan Mike D.,
Bergeron Yves, Girardin Martin P.
International Journal of Wildland Fire. 2007 16(5). p.607
An analysis of controls on fire activity in boreal Canada: comparing models built with different temporal resolutions
Parisien Marc-André,
Parks Sean A.,
Krawchuk Meg A.,
Little John M.,
Flannigan Mike D.,
Gowman Lynn M., Moritz Max A.
Ecological Applications. 2014 24(6). p.1341
The costs and benefits of fire management for carbon mitigation in Alaska through 2100
Elder Molly,
Phillips Carly A,
Potter Stefano,
Frumhoff Peter C, Rogers Brendan M
Environmental Research Letters. 2022 17(10). p.105001
The role of historical fire disturbance in the carbon dynamics of the pan‐boreal region: A process‐based analysis
Balshi M. S.,
McGuire A. D.,
Zhuang Q.,
Melillo J.,
Kicklighter D. W.,
Kasischke E.,
Wirth C.,
Flannigan M.,
Harden J.,
Clein J. S.,
Burnside T. J.,
McAllister J.,
Kurz W. A.,
Apps M., Shvidenko A.
Journal of Geophysical Research: Biogeosciences. 2007 112(G2).
Quantifying the potential for high-altitude smoke injection in the North American boreal forest using the standard MODIS fire products and subpixel-based methods
Peterson David,
Hyer Edward, Wang Jun
Journal of Geophysical Research: Atmospheres. 2014 119(6). p.3401
Climate change decreases the cooling effect from postfire albedo in boreal North America
Potter Stefano,
Solvik Kylen,
Erb Angela,
Goetz Scott J.,
Johnstone Jill F.,
Mack Michelle C.,
Randerson James T.,
Román Miguel O.,
Schaaf Crystal L.,
Turetsky Merritt R.,
Veraverbeke Sander,
Walker Xanthe J.,
Wang Zhuosen,
Massey Richard, Rogers Brendan M.
Global Change Biology. 2020 26(3). p.1592
Lichen cover mapping for caribou ranges in interior Alaska and Yukon
Macander Matthew J,
Palm Eric C,
Frost Gerald V,
Herriges Jim D,
Nelson Peter R,
Roland Carl,
Russell Kelsey L M,
Suitor Mike J,
Bentzen Torsten W,
Joly Kyle,
Goetz Scott J, Hebblewhite Mark
Environmental Research Letters. 2020 15(5). p.055001
Multi-decadal patterns of vegetation succession after tundra fire on the Yukon-Kuskokwim Delta, Alaska
Frost Gerald V,
Loehman Rachel A,
Saperstein Lisa B,
Macander Matthew J,
Nelson Peter R,
Paradis David P, Natali Susan M
Environmental Research Letters. 2020 15(2). p.025003
Fire detection and temperature retrieval using EO-1 Hyperion data over selected Alaskan boreal forest fires
Waigl Christine F.,
Prakash Anupma,
Stuefer Martin,
Verbyla David, Dennison Philip
International Journal of Applied Earth Observation and Geoinformation. 2019 81 p.72
Physical short‐term changes after a tussock tundra fire, Seward Peninsula, Alaska
Liljedahl Anna,
Hinzman Larry,
Busey Robert, Yoshikawa Kenji
Journal of Geophysical Research: Earth Surface. 2007 112(F2).
The effects of a spruce bark beetle outbreak and wildfires on property values in the wildland–urban interface of south-central Alaska, USA
Hansen Winslow D., Naughton Helen T.
Ecological Economics. 2013 96 p.141
Late summer changes in burning conditions in the boreal regions and their implications for NOx and CO emissions from boreal fires
Lapina K.,
Honrath R. E.,
Owen R. C.,
Val Martín M.,
Hyer E. J., Fialho P.
Journal of Geophysical Research: Atmospheres. 2008 113(D11).
Stand basal area and solar radiation amplify white spruce climate sensitivity in interior Alaska: Evidence from carbon isotopes and tree rings
Nicklen Elizabeth Fleur,
Roland Carl A.,
Csank Adam Z.,
Wilmking Martin,
Ruess Roger W., Muldoon Laurel Ann
Global Change Biology. 2019 25(3). p.911
Determining Fire Dates and Locating Ignition Points With Satellite Data
Benali Akli,
Russo Ana,
Sá Ana,
Pinto Renata,
Price Owen,
Koutsias Nikos, Pereira José
Remote Sensing. 2016 8(4). p.326
Vegetation shifts observed in arctic tundra 17 years after fire
Barrett Kirsten,
Rocha Adrian V.,
van de Weg Martine Janet, Shaver Gaius
Remote Sensing Letters. 2012 3(8). p.729
Investigating correlations between snowmelt and forest fires in a high latitude snowmelt dominated drainage basin
Semmens Kathryn Alese, Ramage Joan
Hydrological Processes. 2012 26(17). p.2608
Thunderstorm activity at high latitudes observed at manned WMO weather stations
Kępski Daniel, Kubicki Marek
International Journal of Climatology. 2022 42(15). p.7794
Holocene fire-regime changes near the treeline in the Retezat Mts. (Southern Carpathians, Romania)
Finsinger Walter,
Fevre Jordan,
Orbán Ildikó,
Pál Ilona,
Vincze Ildikó,
Hubay Katalin,
Birks Hilary H.,
Braun Mihály,
Tóth Mónika, Magyari Enikő K.
Quaternary International. 2018 477 p.94
Sensitivity of Simulated Boreal Fire Dynamics to Uncertainties in Climate Drivers
Rupp T. Scott,
Chen Xi,
Olson Mark, McGuire A. David
Earth Interactions. 2007 11(3). p.1
Biological and geophysical feedbacks with fire in the Earth system
Archibald S,
Lehmann C E R,
Belcher C M,
Bond W J,
Bradstock R A,
Daniau A-L,
Dexter K G,
Forrestel E J,
Greve M,
He T,
Higgins S I,
Hoffmann W A,
Lamont B B,
McGlinn D J,
Moncrieff G R,
Osborne C P,
Pausas J G,
Price O,
Ripley B S,
Rogers B M,
Schwilk D W,
Simon M F,
Turetsky M R,
Van der Werf G R, Zanne A E
Environmental Research Letters. 2018 13(3). p.033003
Satellite Remote Sensing of Terrestrial Net Primary Production for the Pan-Arctic Basin and Alaska
Kimball J. S.,
Zhao M.,
McDonald K. C., Running S. W.
Mitigation and Adaptation Strategies for Global Change. 2006 11(4). p.783
Analysis of fire events and controlling factors in eastern india using spatial scan and multivariate statistics
Vadrevu Krishna Prasad
Geografiska Annaler: Series A, Physical Geography. 2008 90(4). p.315
Uncertainty analysis of vegetation distribution in the northern high latitudes during the 21st century with a dynamic vegetation model
Jiang Yueyang,
Zhuang Qianlai,
Schaphoff Sibyll,
Sitch Stephen,
Sokolov Andrei,
Kicklighter David, Melillo Jerry
Ecology and Evolution. 2012 2(3). p.593
Balancing Greenhouse Gas Budgets (2022)
Tundra fire increases the likelihood of methane hotspot formation in the Yukon–Kuskokwim Delta, Alaska, USA
Yoseph Elizabeth,
Hoy Elizabeth,
Elder Clayton D,
Ludwig Sarah M,
Thompson David R, Miller Charles E
Environmental Research Letters. 2023 18(10). p.104042
A tree-ring perspective on the terrestrial carbon cycle
Babst Flurin,
Alexander M. Ross,
Szejner Paul,
Bouriaud Olivier,
Klesse Stefan,
Roden John,
Ciais Philippe,
Poulter Benjamin,
Frank David,
Moore David J. P., Trouet Valerie
Oecologia. 2014 176(2). p.307
Disturbances in North American boreal forest and Arctic tundra: impacts, interactions, and responses
Foster Adrianna C,
Wang Jonathan A,
Frost Gerald V,
Davidson Scott J,
Hoy Elizabeth,
Turner Kevin W,
Sonnentag Oliver,
Epstein Howard,
Berner Logan T,
Armstrong Amanda H,
Kang Mary,
Rogers Brendan M,
Campbell Elizabeth,
Miner Kimberley R,
Orndahl Kathleen M,
Bourgeau-Chavez Laura L,
Lutz David A,
French Nancy,
Chen Dong,
Du Jinyang,
Shestakova Tatiana A,
Shuman Jacquelyn K,
Tape Ken,
Virkkala Anna-Maria,
Potter Christopher, Goetz Scott
Environmental Research Letters. 2022 17(11). p.113001
Machine learning based wildfire susceptibility mapping using remotely sensed fire data and GIS: A case study of Adana and Mersin provinces, Turkey
Iban Muzaffer Can, Sekertekin Aliihsan
Ecological Informatics. 2022 69 p.101647
Soil respiration strongly offsets carbon uptake in Alaska and Northwest Canada
Watts Jennifer D,
Natali Susan M,
Minions Christina,
Risk Dave,
Arndt Kyle,
Zona Donatella,
Euskirchen Eugénie S,
Rocha Adrian V,
Sonnentag Oliver,
Helbig Manuel,
Kalhori Aram,
Oechel Walt,
Ikawa Hiroki,
Ueyama Masahito,
Suzuki Rikie,
Kobayashi Hideki,
Celis Gerardo,
Schuur Edward A G,
Humphreys Elyn,
Kim Yongwon,
Lee Bang-Yong,
Goetz Scott,
Madani Nima,
Schiferl Luke D,
Commane Roisin,
Kimball John S,
Liu Zhihua,
Torn Margaret S,
Potter Stefano,
Wang Jonathan A,
Jorgenson M Torre,
Xiao Jingfeng,
Li Xing, Edgar Colin
Environmental Research Letters. 2021 16(8). p.084051
Influences of boreal fire emissions on Northern Hemisphere atmospheric carbon and carbon monoxide
Kasischke Eric S.,
Hyer Edward J.,
Novelli Paul C.,
Bruhwiler Lori P.,
French Nancy H. F.,
Sukhinin Anatoly I.,
Hewson Jennifer H., Stocks Brian J.
Global Biogeochemical Cycles. 2005 19(1).
Assessing the response of area burned to changing climate in western boreal North America using a Multivariate Adaptive Regression Splines (MARS) approach
BALSHI MICHAEL S.,
McGUIRE A. DAVID,
DUFFY PAUL,
FLANNIGAN MIKE,
WALSH JOHN, MELILLO JERRY
Global Change Biology. 2009 15(3). p.578
Extratropical forests increasingly at risk due to lightning fires
Janssen Thomas A. J.,
Jones Matthew W.,
Finney Declan,
van der Werf Guido R.,
van Wees Dave,
Xu Wenxuan, Veraverbeke Sander
Nature Geoscience. 2023 16(12). p.1136
Boreal Fire Effects on Subsistence Resources in Alaska and Adjacent Canada
Nelson Joanna L.,
Zavaleta Erika S., Chapin F. Stuart
Ecosystems. 2008 11(1). p.156
The Fire Modeling Intercomparison Project (FireMIP), phase 1: experimental and analytical protocols with detailed model descriptions
Rabin Sam S.,
Melton Joe R.,
Lasslop Gitta,
Bachelet Dominique,
Forrest Matthew,
Hantson Stijn,
Kaplan Jed O.,
Li Fang,
Mangeon Stéphane,
Ward Daniel S.,
Yue Chao,
Arora Vivek K.,
Hickler Thomas,
Kloster Silvia,
Knorr Wolfgang,
Nieradzik Lars,
Spessa Allan,
Folberth Gerd A.,
Sheehan Tim,
Voulgarakis Apostolos,
Kelley Douglas I.,
Prentice I. Colin,
Sitch Stephen,
Harrison Sandy, Arneth Almut
Geoscientific Model Development. 2017 10(3). p.1175
The role of land cover change in Arctic-Boreal greening and browning trends
Wang Jonathan A, Friedl Mark A
Environmental Research Letters. 2019 14(12). p.125007
Low-severity fires in the boreal region: reproductive implications for black spruce stands in between stand-replacing fire events
Alfaro-Sánchez Raquel,
Johnstone Jill F, Baltzer Jennifer L
Annals of Botany. 2024
Recent burning of boreal forests exceeds fire regime limits of the past 10,000 years
Kelly Ryan,
Chipman Melissa L.,
Higuera Philip E.,
Stefanova Ivanka,
Brubaker Linda B., Hu Feng Sheng
Proceedings of the National Academy of Sciences. 2013 110(32). p.13055
Developing Adaptive Approaches to Forest Harvest Management in Boreal Alaska under Rapid Climate Change
Morimoto Miho, Juday Glenn Patrick
Journal of Forestry. 2018 116(5). p.437
A short-term predictor of satellite-observed fire activity in the North American boreal forest: Toward improving the prediction of smoke emissions
Peterson David,
Hyer Edward, Wang Jun
Atmospheric Environment. 2013 71 p.304
Changes in surface albedo after fire in boreal forest ecosystems of interior Alaska assessed using MODIS satellite observations
Lyons Evan A.,
Jin Yufang, Randerson James T.
Journal of Geophysical Research: Biogeosciences. 2008 113(G2).
Biomarker evidence for wildfire activity in surface soils from Mt. Yulong on the southeastern Tibetan Plateau: Sources and controls
Li Yangzhuang,
Bai Yan,
Chen Chihao,
Chen Qinghu,
Fang Xiaomin,
Liu Xiaoming, Liu Zhijun
Chemical Geology. 2024 652 p.122022
Direct and indirect effects of climate change on projected future fire regimes in the western United States
Liu Zhihua, Wimberly Michael C.
Science of The Total Environment. 2016 542 p.65
A model for global biomass burning in preindustrial time: LPJ-LMfire (v1.0)
Pfeiffer M.,
Spessa A., Kaplan J. O.
Geoscientific Model Development. 2013 6(3). p.643
Alaska’s changing fire regime — implications for the vulnerability of its boreal forestsThis article is one of a selection of papers from The Dynamics of Change in Alaska’s Boreal Forests: Resilience and Vulnerability in Response to Climate Warming.
Kasischke Eric S.,
Verbyla David L.,
Rupp T. Scott,
McGuire A. David,
Murphy Karen A.,
Jandt Randi,
Barnes Jennifer L.,
Hoy Elizabeth E.,
Duffy Paul A.,
Calef Monika, Turetsky Merritt R.
Canadian Journal of Forest Research. 2010 40(7). p.1313
Recent Climate Change Impacts on the Boreal Forest of Alaska
Calef Monika P.
Geography Compass. 2010 4(2). p.67
Variation in local weather explains differences in fire regimes within a Québec south-eastern boreal forest landscape
Drobyshev Igor,
Flannigan Mike D.,
Bergeron Yves,
Girardin Martin P., Suran Byambagere
International Journal of Wildland Fire. 2010 19(8). p.1073
The role of driving factors in historical and projected carbon dynamics of upland ecosystems in Alaska
Genet Hélène,
He Yujie,
Lyu Zhou,
McGuire A. David,
Zhuang Qianlai,
Clein Joy,
D'Amore David,
Bennett Alec,
Breen Amy,
Biles Frances,
Euskirchen Eugénie S.,
Johnson Kristofer,
Kurkowski Tom,
(Kushch) Schroder Svetlana,
Pastick Neal,
Rupp T. Scott,
Wylie Bruce,
Zhang Yujin,
Zhou Xiaoping, Zhu Zhiliang
Ecological Applications. 2018 28(1). p.5
Circumarctic land cover diversity considering wetness gradients
Bartsch Annett,
Efimova Aleksandra,
Widhalm Barbara,
Muri Xaver,
von Baeckmann Clemens,
Bergstedt Helena,
Ermokhina Ksenia,
Hugelius Gustaf,
Heim Birgit, Leibman Marina
Hydrology and Earth System Sciences. 2024 28(11). p.2421
Fire in arctic tundra of Alaska: past fire activity, future fire potential, and significance for land management and ecology
French Nancy H. F.,
Jenkins Liza K.,
Loboda Tatiana V.,
Flannigan Michael,
Jandt Randi,
Bourgeau-Chavez Laura L., Whitley Matthew
International Journal of Wildland Fire. 2015 24(8). p.1045
Synoptic-scale fire weather conditions in Alaska
Hayasaka Hiroshi,
Tanaka Hiroshi L., Bieniek Peter A.
Polar Science. 2016 10(3). p.217
Lightning Forcing in Global Fire Models: The Importance of Temporal Resolution
Felsberg A.,
Kloster S.,
Wilkenskjeld S.,
Krause A., Lasslop G.
Journal of Geophysical Research: Biogeosciences. 2018 123(1). p.168
Geographically divergent trends in snow disappearance timing and fire ignitions across boreal North America
Hessilt Thomas D.,
Rogers Brendan M.,
Scholten Rebecca C.,
Potter Stefano,
Janssen Thomas A. J., Veraverbeke Sander
Biogeosciences. 2024 21(1). p.109
Assessing the differenced Normalized Burn Ratio's ability to map burn severity in the boreal forest and tundra ecosystems of Alaska's national parks
Allen Jennifer L., Sorbel Brian
International Journal of Wildland Fire. 2008 17(4). p.463
Temporal and spatial characteristics of forest fires in South Korea between 1970 and 2003
Lee Byungdoo,
Park Pil Sun, Chung Joosang
International Journal of Wildland Fire. 2006 15(3). p.389
Remote Sensing and GIS Based Forest Fire Vulnerability Assessment in Dachigam National Park, North Western Himalaya
Rather Muzamil Ahmad,
Farooq Majid,
Meraj Gowhar,
Dada Mudasir Ahmad,
Sheikh Bashir Ahmad, Wani Ishfaq Ahmad
Asian Journal of Applied Sciences. 2018 11(2). p.98
Climatic and landscape controls of the boreal forest fire regime: Holocene records from Alaska
LYNCH JASON A.,
HOLLIS JEREMY L., HU FENG SHENG
Journal of Ecology. 2004 92(3). p.477
Increasing fire frequency and severity will increase habitat loss for a boreal forest indicator species
Palm Eric C.,
Suitor Michael J.,
Joly Kyle,
Herriges Jim D.,
Kelly Allicia P.,
Hervieux Dave,
Russell Kelsey L. M.,
Bentzen Torsten W.,
Larter Nicholas C., Hebblewhite Mark
Ecological Applications. 2022 32(3).
Modeling and mapping forest diversity in the boreal forest of interior Alaska
Young Brian,
Yarie John,
Verbyla David,
Huettmann Falk,
Herrick Keiko, Chapin F. Stuart
Landscape Ecology. 2017 32(2). p.397
Contributions of wildland fire to terrestrial ecosystem carbon dynamics in North America from 1990 to 2012
Chen Guangsheng,
Hayes Daniel J., David McGuire A.
Global Biogeochemical Cycles. 2017 31(5). p.878
Eco-nomics: Are the Planet-Unfriendly Features of Capitalism Barriers to Sustainability?
Singer Merrill
Sustainability. 2010 2(1). p.127
Drivers of fire in the boreal forests: Data constrained design of a prognostic model of burned area for use in dynamic global vegetation models
Crevoisier Cyril,
Shevliakova Elena,
Gloor Manuel,
Wirth Christian, Pacala Steve
Journal of Geophysical Research: Atmospheres. 2007 112(D24).
Escalating carbon emissions from North American boreal forest wildfires and the climate mitigation potential of fire management
Phillips Carly A.,
Rogers Brendan M.,
Elder Molly,
Cooperdock Sol,
Moubarak Michael,
Randerson James T., Frumhoff Peter C.
Science Advances. 2022 8(17).
Human and biophysical influences on fire occurrence in the United States
Hawbaker Todd J.,
Radeloff Volker C.,
Stewart Susan I.,
Hammer Roger B.,
Keuler Nicholas S., Clayton Murray K.
Ecological Applications. 2013 23(3). p.565
Importance of tree- and species-level interactions with wildfire, climate, and soils in interior Alaska: Implications for forest change under a warming climate
Foster Adrianna C.,
Armstrong Amanda H.,
Shuman Jacquelyn K.,
Shugart Herman H.,
Rogers Brendan M.,
Mack Michelle C.,
Goetz Scott J., Ranson K. Jon
Ecological Modelling. 2019 409 p.108765
Future increases in Arctic lightning and fire risk for permafrost carbon
Chen Yang,
Romps David M.,
Seeley Jacob T.,
Veraverbeke Sander,
Riley William J.,
Mekonnen Zelalem A., Randerson James T.
Nature Climate Change. 2021 11(5). p.404
Drivers of extreme wildfire years in the 1965–2019 fire regime of the Tłı̨chǫ First Nation territory, Canada
Gaboriau Dorian M.,
Asselin Hugo,
Ali Adam A.,
Hély Christelle, Girardin Martin P.
Écoscience. 2022 29(3). p.249
Palaeodata-informed modelling of large carbon losses from recent burning of boreal forests
Kelly Ryan,
Genet Hélène,
McGuire A. David, Hu Feng Sheng
Nature Climate Change. 2016 6(1). p.79
Vulnerability of carbon storage in North American boreal forests to wildfires during the 21st century
BALSHI M. S.,
MCGUIRE A. D.,
DUFFY P.,
FLANNIGAN M.,
KICKLIGHTER D. W., MELILLO J.
Global Change Biology. 2009 15(6). p.1491
Lightning-caused fires in the Alps: Identifying the igniting strokes
Moris Jose V.,
Conedera Marco,
Nisi Luca,
Bernardi Marina,
Cesti Giancarlo, Pezzatti Gianni Boris
Agricultural and Forest Meteorology. 2020 290 p.107990
Trends and drivers of Arctic-boreal fire intensity between 2003 and 2022
Li Yanxi,
Janssen Thomas A.J.,
Chen Rui,
He Binbin, Veraverbeke Sander
Science of The Total Environment. 2024 926 p.172020
Three centuries of annual area burned variability in northwestern North America inferred from tree rings
Girardin Martin P., Sauchyn Dave
The Holocene. 2008 18(2). p.205
Factors influencing national scale wildfire susceptibility in Canada
Gralewicz Nicholas J.,
Nelson Trisalyn A., Wulder Michael A.
Forest Ecology and Management. 2012 265 p.20
Extensive land cover change across Arctic–Boreal Northwestern North America from disturbance and climate forcing
Wang Jonathan A.,
Sulla‐Menashe Damien,
Woodcock Curtis E.,
Sonnentag Oliver,
Keeling Ralph F., Friedl Mark A.
Global Change Biology. 2020 26(2). p.807
Lengthening the historical records of fire history over large areas of boreal forest in eastern Canada using empirical relationships
Irulappa Pillai Vijayakumar Dinesh Babu,
Raulier Frédéric,
Bernier Pierre Y.,
Gauthier Sylvie,
Bergeron Yves, Pothier David
Forest Ecology and Management. 2015 347 p.30
Estimating wildfire growth from noisy and incomplete incident data using a state space model
Podschwit Harry,
Guttorp Peter,
Larkin Narasimhan, Steel E. Ashley
Environmental and Ecological Statistics. 2018 25(3). p.325
Controls on variations in MODIS fire radiative power in Alaskan boreal forests: Implications for fire severity conditions
Barrett Kirsten, Kasischke Eric S.
Remote Sensing of Environment. 2013 130 p.171
Effects of natural resource development on the terrestrial biodiversity of Canadian boreal forests
Venier L.A.,
Thompson I.D.,
Fleming R.,
Malcolm J.,
Aubin I.,
Trofymow J.A.,
Langor D.,
Sturrock R.,
Patry C.,
Outerbridge R.O.,
Holmes S.B.,
Haeussler S.,
De Grandpré L.,
Chen H.Y.H.,
Bayne E.,
Arsenault A., Brandt J.P.
Environmental Reviews. 2014 22(4). p.457
Modeling the effects of fire severity and climate warming on active layer thickness and soil carbon storage of black spruce forests across the landscape in interior Alaska
Genet H,
McGuire A D,
Barrett K,
Breen A,
Euskirchen E S,
Johnstone J F,
Kasischke E S,
Melvin A M,
Bennett A,
Mack M C,
Rupp T S,
Schuur A E G,
Turetsky M R, Yuan F
Environmental Research Letters. 2013 8(4). p.045016
Postfire Soil N Cycling in Northern Conifer Forests Affected by Severe, Stand-Replacing Wildfires
Smithwick Erica A. H.,
Turner Monica G.,
Mack Michelle C., Chapin F. Stuart
Ecosystems. 2005 8(2). p.163
Lightning as a major driver of recent large fire years in North American boreal forests
Veraverbeke Sander,
Rogers Brendan M.,
Goulden Mike L.,
Jandt Randi R.,
Miller Charles E.,
Wiggins Elizabeth B., Randerson James T.
Nature Climate Change. 2017 7(7). p.529
Integrated Regional Changes in Arctic Climate Feedbacks: Implications for the Global Climate System
McGuire A. David,
Chapin F.S.,
Walsh John E., Wirth Christian
Annual Review of Environment and Resources. 2006 31(1). p.61
Modeling fire severity in black spruce stands in the Alaskan boreal forest using spectral and non-spectral geospatial data
Barrett K.,
Kasischke E.S.,
McGuire A.D.,
Turetsky M.R., Kane E.S.
Remote Sensing of Environment. 2010 114(7). p.1494
Scale-dependent determinants of heterogeneity in fire frequency in a coniferous boreal forest of eastern Canada
Cyr Dominic,
Gauthier Sylvie, Bergeron Yves
Landscape Ecology. 2007 22(9). p.1325
Particulate emissions from large North American wildfires estimated using a new top-down method
Nikonovas Tadas,
North Peter R. J., Doerr Stefan H.
Atmospheric Chemistry and Physics. 2017 17(10). p.6423
Different regional climatic drivers of Holocene large wildfires in boreal forests of northeastern America
Remy Cécile C,
Hély Christelle,
Blarquez Olivier,
Magnan Gabriel,
Bergeron Yves,
Lavoie Martin, Ali Adam A
Environmental Research Letters. 2017 12(3). p.035005
A systematic evaluation of influence of image selection process on remote sensing-based burn severity indices in North American boreal forest and tundra ecosystems
Chen Dong,
Loboda Tatiana V., Hall Joanne V.
ISPRS Journal of Photogrammetry and Remote Sensing. 2020 159 p.63
Wildfire Consumption and Interannual Impacts by Land Cover in Alaskan Boreal Forest
Kolden Crystal A., Abatzoglou John T.
Fire Ecology. 2012 8(1). p.98
A New Picture of Fire Extent, Variability, and Drought Interaction in Prescribed Fire Landscapes: Insights From Florida Government Records
Nowell H. K.,
Holmes C. D.,
Robertson K.,
Teske C., Hiers J. K.
Geophysical Research Letters. 2018 45(15). p.7874
The effects of surficial deposit - drainage combinations on spatial variations of fire cycles in the boreal forest of eastern Canada
Mansuy Nicolas,
Gauthier Sylvie,
Robitaille André, Bergeron Yves
International Journal of Wildland Fire. 2010 19(8). p.1083
Variability of tundra fire regimes in Arctic Alaska: millennial-scale patterns and ecological implications
Higuera Philip E.,
Chipman Melissa L.,
Barnes Jennifer L.,
Urban Michael A., Hu Feng Sheng
Ecological Applications. 2011 21(8). p.3211
Spatial Heterogeneity and Soil Nitrogen Dynamics in a Burned Black Spruce Forest Stand: Distinct Controls at Different Scales
Smithwick Erica A. H.,
Mack Michelle C.,
Turner Monica G.,
Chapin F. Stuart,
Zhu Jun, Balser Teri C.
Biogeochemistry. 2005 76(3). p.517
Predicting the Unpredictable: Predicting Landcover in Boreal Alaska and the Yukon Including Succession and Wildfire Potential
Calef Monika P.,
Schmidt Jennifer I.,
Varvak Anna, Ziel Robert
Forests. 2023 14(8). p.1577
Forest-landscape structure mediates effects of a spruce bark beetle (Dendroctonus rufipennis) outbreak on subsequent likelihood of burning in Alaskan boreal forest
Hansen Winslow D.,
Chapin F. Stuart,
Naughton Helen T.,
Rupp T. Scott, Verbyla David
Forest Ecology and Management. 2016 369 p.38
Burned area and carbon emissions across northwestern boreal North America from 2001–2019
Potter Stefano,
Cooperdock Sol,
Veraverbeke Sander,
Walker Xanthe,
Mack Michelle C.,
Goetz Scott J.,
Baltzer Jennifer,
Bourgeau-Chavez Laura,
Burrell Arden,
Dieleman Catherine,
French Nancy,
Hantson Stijn,
Hoy Elizabeth E.,
Jenkins Liza,
Johnstone Jill F.,
Kane Evan S.,
Natali Susan M.,
Randerson James T.,
Turetsky Merritt R.,
Whitman Ellen,
Wiggins Elizabeth, Rogers Brendan M.
Biogeosciences. 2023 20(13). p.2785
Recent changes in the fire regime across the North American boreal region—Spatial and temporal patterns of burning across Canada and Alaska
Kasischke Eric S., Turetsky Merritt R.
Geophysical Research Letters. 2006 33(9).
Carbon emissions and radiative forcings from tundra wildfires in the Yukon–Kuskokwim River Delta, Alaska
Moubarak Michael,
Sistla Seeta,
Potter Stefano,
Natali Susan M., Rogers Brendan M.
Biogeosciences. 2023 20(8). p.1537
Satellite-based assessment of climate controls on US burned area
Morton D. C.,
Collatz G. J.,
Wang D.,
Randerson J. T.,
Giglio L., Chen Y.
Biogeosciences. 2013 10(1). p.247
Soil carbon and nitrogen across wetland types in discontinuous permafrost zone of the Xiao Xing'an Mountains, northeastern China
Wang Xianwei,
Song Changchun,
Sun Xiaoxin,
Wang Jiaoyue,
Zhang Xinhou, Mao Rong
CATENA. 2013 101 p.31
Active Forest Fire Occurrences in Severe Lightning Years in Alaska
FARUKH Murad Ahmed, HAYASAKA Hiroshi
Journal of Natural Disaster Science. 2012 33(2). p.71
Coal and Peat Fires: A Global Perspective (2015)
Sensitivity of SAR data to post-fire forest regrowth in Mediterranean and boreal forests
Tanase Mihai,
de la Riva Juan,
Santoro Maurizio,
Pérez-Cabello Fernando, Kasischke Eric
Remote Sensing of Environment. 2011 115(8). p.2075
Potential shifts in dominant forest cover in interior Alaska driven by variations in fire severity
Barrett K.,
McGuire A. D.,
Hoy E. E., Kasischke E. S.
Ecological Applications. 2011 21(7). p.2380
A 1000-yr record of forest fire activity from Eclipse Icefield, Yukon, Canada
Yalcin Kaplan,
Wake Cameron P.,
Kreutz Karl J., Whitlow Sallie I.
The Holocene. 2006 16(2). p.200
High-resolution records detect human-caused changes to the boreal forest wildfire regime in interior Alaska
Gaglioti Benjamin V,
Mann Daniel H,
Jones Benjamin M,
Wooller Matthew J, Finney Bruce P
The Holocene. 2016 26(7). p.1064
Remote sensing and GIS-based inventory and analysis of the unprecedented 2021 forest fires in Türkiye’s history
Eker Remzi,
Çınar Tunahan,
Baysal İsmail, Aydın Abdurrahim
Natural Hazards. 2024
The role of fire in global forest loss dynamics
van Wees Dave,
van der Werf Guido R.,
Randerson James T.,
Andela Niels,
Chen Yang, Morton Douglas C.
Global Change Biology. 2021 27(11). p.2377
Fire and substrate interact to control the northern range limit of black spruce (Picea mariana) in Alaska
Lloyd Andrea H.,
Fastie Christopher L., Eisen Hilary
Canadian Journal of Forest Research. 2007 37(12). p.2480
A Comparative Analysis of Burned Area Datasets in Canadian Boreal Forest in 2000
Núñez-Casillas Laia,
García Lázaro José Rafael,
Moreno-Ruiz José Andrés,
Arbelo Manuel,
Cetin A. E.,
Korpeoglu I., Verstockt S.
The Scientific World Journal. 2013 2013(1).
Development of Methods for Detection and Monitoring of Fire Disturbance in the Alaskan Tundra Using a Two-Decade Long Record of Synthetic Aperture Radar Satellite Images
Jenkins Liza,
Bourgeau-Chavez Laura,
French Nancy,
Loboda Tatiana, Thelen Brian
Remote Sensing. 2014 6(7). p.6347
Relative importance of weather and climate on wildfire growth in interior Alaska
Abatzoglou John T., Kolden Crystal A.
International Journal of Wildland Fire. 2011 20(4). p.479
Evaluation of the composite burn index for assessing fire severity in Alaskan black spruce forests
Kasischke Eric S.,
Turetsky Merritt R.,
Ottmar Roger D.,
French Nancy H. F.,
Hoy Elizabeth E., Kane Evan S.
International Journal of Wildland Fire. 2008 17(4). p.515
The nature of spatial transitions in the Arctic
Epstein H. E.,
Beringer J.,
Gould W. A.,
Lloyd A. H.,
Thompson C. D.,
Chapin F. S.,
Michaelson G. J.,
Ping C. L.,
Rupp T. S., Walker D. A.
Journal of Biogeography. 2004 31(12). p.1917
The predictability of near‐term forest biomass change in boreal North America
Burrell Arden L.,
Cooperdock Sol,
Potter Stefano,
Berner Logan T.,
Hember Robert,
Macander Matthew J.,
Walker Xanthe J.,
Massey Richard,
Foster Adrianna C.,
Mack Michelle C.,
Goetz Scott J., Rogers Brendan
Ecosphere. 2024 15(1).
Spatio-temporal analysis of fire events in India: implications for environmental conservation
Vadrevu Krishna Prasad,
Badarinath K. V.S., Eaturu Anuradha
Journal of Environmental Planning and Management. 2008 51(6). p.817
Vegetation mediated the impacts of postglacial climate change on fire regimes in the south‐central Brooks Range, Alaska
Higuera Philip E.,
Brubaker Linda B.,
Anderson Patricia M.,
Hu Feng Sheng, Brown Thomas A.
Ecological Monographs. 2009 79(2). p.201
Encyclopedia of Water (2019)
The role of environmental driving factors in historical and projected carbon dynamics of wetland ecosystems in Alaska
Lyu Zhou,
Genet Hélène,
He Yujie,
Zhuang Qianlai,
McGuire A. David,
Bennett Alec,
Breen Amy,
Clein Joy,
Euskirchen Eugénie S.,
Johnson Kristofer,
Kurkowski Tom,
Pastick Neal J.,
Rupp T. Scott,
Wylie Bruce K., Zhu Zhiliang
Ecological Applications. 2018 28(6). p.1377
Biomass burning fuel consumption rates: a field measurement database
van Leeuwen T. T.,
van der Werf G. R.,
Hoffmann A. A.,
Detmers R. G.,
Rücker G.,
French N. H. F.,
Archibald S.,
Carvalho Jr. J. A.,
Cook G. D.,
de Groot W. J.,
Hély C.,
Kasischke E. S.,
Kloster S.,
McCarty J. L.,
Pettinari M. L.,
Savadogo P.,
Alvarado E. C.,
Boschetti L.,
Manuri S.,
Meyer C. P.,
Siegert F.,
Trollope L. A., Trollope W. S. W.
Biogeosciences. 2014 11(24). p.7305
Smoke aerosol properties and ageing effects for northern temperate and boreal regions derived from AERONET source and age attribution
Nikonovas T.,
North P. R. J., Doerr S. H.
Atmospheric Chemistry and Physics. 2015 15(14). p.7929
How Climate and Vegetation Influence the fire Regime of the Alaskan Boreal Biome: The Holocene Perspective
Hu Feng Sheng,
Brubaker Linda B.,
Gavin Daniel G.,
Higuera Philip E.,
Lynch Jason A.,
Rupp T. Scott, Tinner Willy
Mitigation and Adaptation Strategies for Global Change. 2006 11(4). p.829
Human Influences on Wildfire in Alaska from 1988 through 2005: An Analysis of the Spatial Patterns of Human Impacts
Calef M. P.,
McGuire A. D., Chapin F. S.
Earth Interactions. 2008 12(1). p.1
Global biomass burning: a synthesis and review of Holocene paleofire records and their controls
Marlon Jennifer R.,
Bartlein Patrick J.,
Daniau Anne-Laure,
Harrison Sandy P.,
Maezumi Shira Y.,
Power Mitchell J.,
Tinner Willy, Vanniére Boris
Quaternary Science Reviews. 2013 65 p.5
High-latitude cooling associated with landscape changes from North American boreal forest fires
Rogers B. M.,
Randerson J. T., Bonan G. B.
Biogeosciences. 2013 10(2). p.699
Evidence for fire in the Pliocene Arctic in response to amplified temperature
Fletcher Tamara L.,
Warden Lisa,
Sinninghe Damsté Jaap S.,
Brown Kendrick J.,
Rybczynski Natalia,
Gosse John C., Ballantyne Ashley P.
Climate of the Past. 2019 15(3). p.1063
Population dynamics of black spruce and white spruce near the arctic tree line in the southern Brooks Range, Alaska
Lloyd Andrea H,
Wilson Alexis E,
Fastie Christopher L, Landis R Matthew
Canadian Journal of Forest Research. 2005 35(9). p.2073
Frequent Fires in Ancient Shrub Tundra: Implications of Paleorecords for Arctic Environmental Change
Higuera Philip E.,
Brubaker Linda B.,
Anderson Patricia M.,
Brown Thomas A.,
Kennedy Alison T.,
Hu Feng Sheng, Chave Jerome
PLoS ONE. 2008 3(3). p.e0001744
Trend Change Detection in NDVI Time Series: Effects of Inter-Annual Variability and Methodology
Forkel Matthias,
Carvalhais Nuno,
Verbesselt Jan,
Mahecha Miguel,
Neigh Christopher, Reichstein Markus
Remote Sensing. 2013 5(5). p.2113
Climatic thresholds shape northern high‐latitude fire regimes and imply vulnerability to future climate change
Young Adam M.,
Higuera Philip E.,
Duffy Paul A., Hu Feng Sheng
Ecography. 2017 40(5). p.606
